Cotton-picking machine



oct. 25, 1927.

4 2 @Rv w vt Z @i m 7 6, #pf f 4 bm fm? M 6 V a l, m MPP .n e F h k S 7H n o 7 @www l 4, I Il .fr T Food 0 l Ml w 5 m N m mmm y .GAO bmg Lmwll Pnm m11. FMF C 1 Oct'-25 927 F. PHELPs ET Al.

COTTON PICKING MACHINE 'Filed Feb.23, 1923 v 10 sheets-sheet s 5 5. m fr. e l W C .ANL o oo o nu... ZU. Q www w 0 .f rw @Nm m .W .u m n W( ,d m .QN\\ iwa www wm NQ QW NQ QQ NN\ wm,

Oct. 25 1927.

F. PHELPs ET'AL GOTTONPICKING MCHINE Filed Feb.25,'1923 =1o sheets-sheet 5 F. PHELPS ET AL COTTON PICKING MACHINE Filed Feb. 25, 1923 .s f Rs. mhsfl.. P6 5 Ehh W WPP f /F w m w rwmmuf w MMM a u 8. ,5; /0 00 oct. A 25 1927.

F. PHELPs ET AL ,coTToN PIGKING MACHINE Filed Feng; 1923 A1o sheets-sheet e P6. @Lf

Oct. a

F. PHELPs ET AL COTTON PICKING MAGHIE .1o sheets-sneek 9 Filed Feb. 23, 1923 H6. /4

@66. `Q0@ wwowvemf@ Emana-Q oct. 25, 1927. 1,646,594

F. PHELPs ET AL coTToN PIGKING MACHINE 415 trash being deposited with the cotton.

v,lfahteiiual Oct.. 25, 1.927.

' FRANK rnELrs AND Moa'roN'F. rHELrs,

f TO PHELPS COTTON PICKER COMPANY, '.lION OF 'ARKANSAS or LITTLE' ROCK,` ARKANSAS, AssreNoR-s oF LITTLE nocx, ARKANSAS, A CORPORA- coTroN-rIcxINe MACHINE.

Application led February 23, 1928. Serial No. 620,690.

Our invention relates to machines for picking or automatically extracting the cotton from the open bolls on cotton plants in the field, and depositing the extracted cot- '5 ton in suitable receptacles arranged upon the l machine.

The general object of our invention is to produce a machine forthis will pick and extract Ithe cotton from all the open bolls on the cotton plants, from the ground to the top of the plants, as the machine passes once over a row of plants, and

' that will accomplishl this with the least amount possible of foreign matter, or leaf further object is to produce. a machine of this general accomplishment that 'will be rapid and efficient in operation, durable, and

simpleof construction, vand inexpensive to manufacturei We have found by lthorough research for Y lthe causes underlying the fact that cotton picking machines, in spite of their great labor saving possibilities, have .notas yet come into practical use, isthe inabilit of the machines, as heretofore constructe to eficiently and completely, in one operation, pick and extract the cotton from all the open bolls, from the ground to the top of the cottonl plants, leaving instead a considerable number of unpic-ked bolls on the plants.

Other contributing causes are to be found y in high production cost and faulty vmechaniv cal design and workmanship. v

A particularly serious defect in cotton .picking machines, as heretofore constructed,

has been their inability tol pick cotton from'.

` the lowei-.branches on the'cotton stalks, and this defect, added to inefficient picking capacity for the upper `portion of the plants, has resulted in leaving a large number of un picked cotton vbolls to be either picked by reach of the pickingspindles.

purpose that The ineiicient picking. and failure to ex- '5'5 tract the cotton from all the open bolls, higher on` the plants land in the direct path of the picking spindles, is ngenerally due:

First, to a failure of the spindles to reach all points inthe picking area, and ltd contact 4with all the bolls, and

Second, to failure to rinly attach `Lthe Eoton to the spindles `when actually in con-v' .Failure of l'contact results from partial and infrequent vprojection of the spindles acress ythe tunnel space'of the machine 'n which the cotton plants are confinedfl du A linsufcient number, and improper spa ing of the spindles, and incorrect positions njd 'l0 vmovements of the spindles when projeqted between the cotton stalks'in the tunnel.

Failure of attachment is the result of faulty construction of the spindles and intermittent and slow rotation thereof, and of imperfect stripping of the spindles, the cotton left thereon preventing other cotton becoming attached thereto. i g

The main objects of. our invention are,. therefore, specifically to design, construct and embody in a cotton picking machine, in

lthe simplest forms, mechanical means and improvements which sha-l1 remove the causes, defects and failures of. prior machines as they have been analyzed above.

For the purpose of smoothness in operation, speed and durability, we preferably eliminate all cams, and` intermittent, irreguf lar movements ofthe working partsand actuate the spindles-and spindle frames by 00 rotary and eccentric nmvements exclusively.\

For the purpose of making the picking spindles effective, Iboth for vcatchingfyand ,stripping the cotton, lwe preferably construct them of one-piece steel-bars, ,substantially square in cross section, but having 'on each corner projecting pickingteeth, pointing outward and forward, andv beveled transversely, at an angle, to form sharp points on their forward ends, the beveled edges of the teeth pointing transversely of the axis and in the direction of rotation of the spindles. By this novel' construction, which Will hereinafter be more -fully described in detail, the slightest contactof a spindle with the cotton, will firmly attach the cotton to the teeth of the spindle, to be wound thereon and extracted from the open cotton boll.

.no f

'l lhe spindles are preferably driven from jected to the movements andl operation ofl a motor at a. high, rotary s peed, bypositive gearing, which insures the instant extraction of the cotton from the bolls when caught by the spindles. 'The forward pointing teeth, and square sides of the spindles, 1n-

l. sure the stripping of cotton from the spinl describe horizontally reversing oscillating .dles, as will hereinafterv'more fullyv appear.

To positively reach every point in the cotton boll area with the picking spindles, we group the spindles closely together, preferably in staggered relation, in two spindle units, operating on opposite sides of the cotton rows, and alternately project thespin- .dles between the cotton stalks and branches,

substantially to the opposite wall of the narrow traveling tunnel, into which the cotton plants are contracted, and in which they are confined, while passedover by the machine. As the spindles pass between the stalks, they paths, relative to the lcotton stalks, which carry thev rotating spindles to` substantially eve point, horizontally, between the stalks. To urther insure the passage bf the spindles through all points between ythe stalks,

vertically as well as horizontally, the relacaused to passa number of times through, or

tive speed of the oscillations ofthe spindle units to the forward movement of the machine, is such that picking spindles are p near, the same space between the stalks.

hereinafter be fully pointed out, insures afirm support' for theextended spindles, and v 4at the same time, facilitates stripping.

. tunnel, practica 'low the level of the picking spindles, lvide means for raising,

Attention is particularly called t o the fact that the passage of the .picking spindles, alternately, from opposite sides, completely across to the oplposite wallv of the picking covered by the spindles at each passagey as compared with spindles projected only to. the center of \the tunnel. This completeA cross tunnel passage of the spindles is made ractical of attainment by means of spindle Eearings the stripper heads arranged in a carriermovable independently of the oscillating spindle carrier in a cross-tunnel horizontal direction. This construction, as willl Byythese novel constructions, movements and operations, every pointof space infthe icking tunel between' the stalks is touchedy the picking spindles from thelevel of the v lowest tier of spindles upward, several times in succession, and the cotton in every-open boll, existing in this zone, is attracted by the l ra idly and positively rotating spindles.

or the purpose of completely picking the bolls on ybranches of the stalks situ/ated bewe proand 4retaining .in a raised position until the spindles, have passed, all Athe cotton branches situated under this llevel, whereby these branches,

' and the bolls grown thereon, will be subi' y doubles the picking area which picks up and horizontal carrier flights pass under and.

raise the branches between the stalks. Curved shields are provided for each-shoe, which deiect the branches of the stalks to the narrow confines of thetunnel, as the machine advances, bending the cross branches 4 forward'over the horizontal `carrier liights', which then continue to carry, both the cross branches, and the longitudinal branches, in an elevated position in the path of the lower tiers of pickingspindles for the picking of the bolls. I

Our invention consists generally incertain constructions and combinations, as herein# after described in the specificationand par-A ticularly pointed out in the claims.

In-the accompanying drawings, forming a part of this specification: V

Figure 1 is a longitudinal section ofa machine constructed in accordance with our invention, rthe section being generally taken on the liie 1 1 of Figure 2;

Figure 2 is arear elevation of the machine 4on a larger scale;

Figure 3 is a horizontal section of a part o f the machine, showing the means for re# ciprocatingcarriers, the' section being generally taken-.on the line 3 3 of Figure 7;

Figure 4 is a plan sectional view ofthe `frontend of the machine showing the spindle carriers, in an advanced position from that shown in Figures, 1, 3 .and 5;v Figure 6 is avertical longitudinal section of one of the' spindle carriers-the section being generally taken on the line 5 5 of Figure 7; Figure 6 is a detail, horizontal the line 6 6 of Figure 7; y

-Figure 7 is a verticalcross section ons-a larger scale on theline 7 7 of Figure 5;

Figure 8 is a on the lines 8 8Y of ticularly the method `of supporting an moving the spindle and stripper head. carriers; Figure l8n is a similar section on the line 8** 8a of Figure'7 showing the method of grouping and driving the spindles;

the line 9 9 of Figure. 10,

ing, in an elevated position for picking, the lower branches ofthe cotton stalks; j Figure 10 lis a vertical section on the line Figure 9 is a horizontal sectional view on f illustrating the v y -method and imeans of elevating and retainl lo section on i vertical longitudinal ,section Figure 7, showin par- -10 of Figure 9, also showing the method and means of conveying the picked cotton;

Figures 11 and 12 are detail views of a section of the endless carrier shown in Figures 9 and 10;

Figure 131s a cross section on the line 13-13 of Figure l0; 0

Figure 14 is a vertical sectional view'of the front end of the machine, illustrating how the lower cotton branches are raised to a high position forpicking;

Figure 15 is a vview illustrating the oppositely and reversely crossing curves described by the picking spindles when pro.-

jected between the cotton stalks;

Figure 16 is a vertical cross section on the line 16-16 of Figure 4, showing the movable bearings for the spindles, formed by the stripper heads;

Figures '17 and 18v are detail sectional views of one of the spindles and its supporting movable stripper heads showing how thel head is moved forward with the spindle,l

and supports it when projected;

Figure 19 is a detail sectional view on a large'scale, on the line 19-19 of FigurelS,

-Figure 2O is a sectionv through onel of the stripper heads on a large scale, showing a modified anti-friction bearing for said stripper head;

Figure 21 is a cross section of a modified concave formed spindle.

Themaz'n carriage frame.

i Referring to Figures l to 4 ofthe. drawings it will be seen that the machine is composed substantially of-right and left hand sections, substantially identical in construc-A tion and operation, and adapted to travel on opposite sides of a row of c otton plants.l The machine comprises a carriage, formed ofV an upper horizontal frame member `A, carrying asuitable powerplant B, and vertical right and left-hand side members C, C, depending from the frame member A. The frame, member A isv constructed of longitudinal girders 2, rigidly connected by cross girders 3 and 4, and the frame members C are each constructed of longitudinalbars 5 .and 6, rigidly connected to the bars 2 by vertical strutsv 7, The reaf of'the carriage frame is preferably supported by an arched axle 8a mounted in bearings 9 in the frame members C, said axle havingtraction wheels mounted thereon. 1 The front portion of the.

carriage frame is supported upon the steer'- ing wheels 10 which are mounted on 'an arched axle 11, suitably connected,.as by a horizontal pivot, to the cross girders 4 of the frame member A (Figure 1).. Suitable steering'mechanismlo", not shown in detail,

. operable from the drivers seat 14 by means of a hand wheel 15, is provided for the front wheels 10, by means of l'which the machine` may be guided. The front end-of the carria e frame ma vbe verticall vadjusted bv f g y means of suitab suitable means. The rearkend ofthe carriage frame lis preferably made vertically' adjustable'by `bearing blocks Qai'i'anged between vertical guide posts 18 and restingf upon the ends .of the axle 8.a.v Internally threaded blocks 19, lsecured `to the guide posts 18, are also arrangedbetween said guide posts, and threaded rods 20, passing through the blocks` 19 vhave their lower ends engaging the lhearing blocks 3'9. Suitable hand operated wheelsv -21 are kprovided at` the upper ends of Vthe threaded rods 20. whereby the carriage frame maybe raised orv lowered by operating said hand wheels, and thereby moving vertically the threaded blocks 19 and the frame to which said blocks are secured. Connecting cliai-ns 22 pass aroundV sprocket wheels 23.0n the rods 20, so that by turning either hand wheel 21` both sides of thev machine will be simultaneously adjusted.

The ZM/ving mechanism'.

hand Wheels 16, threaded' on the vertical steering rods 17, or by other The traction wheels N8 are provided with the usual bull gears (indicated inFigure 1 by dotted lines 24)'. These mesh with driving -pinions (indicated in Figure 1 by dot-ted lines 25), which 'are mounted on shafts 26, 'having bearings in a diierential gear casing 27. 'This casinglis secured to the axle 8a by'suitable bearings, and carries the usual differential gearing and driving shaft 29, connected by means of a4 suitable coupling to a vshort transmission shaft 30 supported in suitable bearings 31 on the. frame member A, and carrying a sprocket wheel 32 (Figure ll). The power plant B, preferably of the internal combustion engine type, is preferably provided withfa speed change gear boi; of any preferred or vstandard type, and the :.'peed "changes are controllable from the driverls seat by means .of a hand lever 33, connecting rod 34, and rocker arm 35.- The engine power shaft 36 is provided with a sprocket wheel 37, and' power is transmitted from gears are in lll() 'loa this sprocket wheel to the shaft'30 by means of a chain belt 38. In order to maintain a definite relationshipbetween the speed at which the .machine may be vdriven Yover the ground', by the above described means, and

extend lengthwise of the machine at each side thereof, and are supported by suitable standards on the. carriage frame member A. (Figures 1 and 2.)

As the two operating units of this mechanism are identicalin constructionl and mode of operation the left hand unit will princiv pally'be referred to in the following detailed' description, the same reference numerals vwhen used on the drawings of both units` representing identical parts.

The spindle supporting and mowing devices. To support the set of spindles at each side of the machine, and move the same into and `out of position to engage vthe cotton on the plant we prefer to provide a longitudinally reciprocating -frame unit, and two transverselyl reciprocating carrier'v units, The frame unit, which may appropriately be termed a main supporting frame, is arranged to reciprocate longitudinally of the 'y carriage frame, but without any transverse Imovement thereon. This frame. designated as a Whole by the referencev letter D, is preferably composed, in skeleton form, of lower which it is supported by rollers 74. The

longitudinal motions of said frame Vare preft erably limited by stops 75, provided on the channel bars 73, (Figures 5 and 7). Said channel bars 73 are preferably secured to the Ilongitudinal bars. 6 (Figure 7 This vframe is preferably guided in its reciprocat- 1 ing movements, by the lower rollers 76 enp gagingthe channel bar 53, yand by the upper. rollers 78, arranged to travel between the p 'V v bars58 and 59 (Figure 7 ).I

A second unit which may appropriately be termed a spindle carrier, and which, as al whcle, is herein designatedby the reference letter E, is arranged to reciprocate transversely in-thefinain supporting frame D.

Being mounted in the lmain supporting frame it reciprocates'longitudinally theref with. The carrier E preferably consists of vertical channel bars 66 provided, at their lower ends,v with rollers 102 arranged between the transverse bars 54, and at their upper ends with rollers 103 arranged between the transverse bars 60, (Figure 8) ;g horizontal channel-bars 65, secured to said bars 66, anda vertical plate 62, secured to the bars 655 (Figure 7). i

The third unit, which may appropriately be termed a stripper-head carrier, and which shaft.

as a whole is herein designated byv the reference letter F, consists mainly of a vertical plate 68 having upper and lower horizontal extensions 68, 68", and 68. Rollers 82, secured to the extension 68,are arranged in the channel between the crossbars 54, and

.rollers 84, mounted on the extension 68, are arranged in the channel between the cross bars 60. The vertical plate 68 is provided with a series of preferably cylindrical housings 70, in whichV the stripper heads are mounted, Las hereinafter described. The

housings 70 project from the plate '68 towards the spindle carrier. Said housing may beformed integrally with the plate 68, or may be formed separately and vsecured thereto. `(Figures 17, 18 and 20.)I 1

. u 'v The frame and earner mo'vmg nwohamsm.

Suitable cross bars- 89 extend between the lower bars 5 and 6, and similar bars 90 extend between the upper bars 2, 2 one of said cross bars being Vlocated' neai` each endl og the main supporting frame D. 'Mounte in suitable anti-friction bearings and 86,

arranged in said cross bars, are the vertical crank shafts 92 (Figure 8)provided for moving the frame D and the carriers E and F. Crank pins 94 (Figures 3 and 116) are formed on the crank shaft 92, substantially opposite'the' upper and lower edgesof.. the

stripper head carrier F, and connectin rods 95'c0nnect said crank pins 94 with pins 96 provided in they horizontal extensions 68'* and 68c of the verticalplate 684(Figures 7 and 16.)

'1 he spindleicarrier is connected to the main cranks 98 of the shafts 92 by' the engagement of said cranks with bearings 99 lon t-he horizontal bars 65 of the spindle carrier. As the' spindle-carrier is preferably v coniparatvely' light we have'shown'it supported on collars 100 on the main cranks 98. Other vertical l'supports for this carrier may obviously be provided. The crank pins 94 are arranged preferably in arallel `relation to the crank shafts .92 an 98, andzboth cranks 98 are adjusted in the same position p in the circleofrevolution (Figure 3) and geared to run at the same speed by means of 'I the beveled gears.-104, on Ithe crank shaft'92,

and -beveled pinions 106` on the driving It will be seen'that as the .crank shafts 92 are rotated the spindle carrier E, connected t`o` the cranks 98, will, moving. with said cranks,be given a circular or gyrating movement, and, as saidycarrier E moves, its rollers 102 and 103 will allow the main supporting frame D to reciprocatel longitudinally of the carriage frame, guided by the stationa rollers 7 6 and 78, and .supported by the rol l ers`72 and 74. The rotation of the cranks 98 will cause the spindle carrier E to reciprocate transversely in the main supporting frameD, as hereinbefore stated, therebyre-v ciprocating the spindles crosswise, of the plant receiving tunnel of the machine,"while at the same time the connecting rods 95 will, through the crank pins 94, cause the stripper head carrier F also to reciprocate transversely of the main supporting frame, the extent ofits travel, however, being less than that of the spindle carrier E.

It will be seen, therefore, that the spindle carrier E and the stripper head carrier F, both being mounted in the frame D will partake of its longitudinal movements, while both of said carriers will reciprocate transversely of the frame D, 'the movement of the spindle carrier being greater than that of j the stripper head carrler.

ythe plants, projected By the described operation ofthe frame D and the carriers E and F, we are able to project the cotton picking spindles 71 a maximum distance across, or by, a cotton plant, while firmly supporting said spindles near by the stripper heads, which are towards the plants with the spindles. The reverse movement of the carriers. also retracts the stripper heads, with the spindles, a sufficient distance to provide stripping space above the conveyor, thereby enabling the cotton, as it is stripped from the spindles, to drop upon the conveyor, as hereinafter described. y

l The cotton picking space o1' vttl/nml. l Between the two opposed cotton picking units of the machine is a narrow passageway- 110, which for convenience-we designate a cotton confining space or tunnel. in which the cotton plants.l are confined while the cotton is being picked. The top of thisspace is formed by a 4plate 112 supported at its rear end by a cross bar 114. that also preferably supports'the bearings for the shaft 3() (Fig-4 ure 2). At the front end of the machine the plate 112 has an upwardly flaring end por. tion 116, that is preferably fastened to the cross girder 3 of the frame member A.

The sides of the cotton picking space orv tunnel are formed partially by stationary plates or -walls 118, supported onA the carriage frame in any suitable or preferred manner. At each side of the cotton picking space or tunnel a large opening is provided between the ends of the forward and rear plates 118. These openings are covered by plates 120, fastened by brackets 122 and 123 to thelongitudinally reciprocating frames D,

the ends of the plates l120 overlapping the stationary plates 118 (Fi ires 1 and 3). The plates 120,"therefore,-have va forward and backward movement with the main supporting frames D. and tliese'plates, 120form `movable side walls for 'the cotton picking space or tunnel; each of the ,plates r12C-'being provided with a series of openings 124, through which thespin'dles may be projected into or withdrawn from the cotton picking space or tunnel. The plates 120, therefore, have a forward and backward movement with the frame D,and they also form movable side walls for-the cotton picking space or tunnel in which the cotton plants are held in compact form while the cotton is being' removed vfrom the plants by the mechanism herein described.

The spindles and the shipper heads.

Each of the spindles 71 is preferably a bar having a general rectangular form, with a reduced end section 140, forming a shoulder.

against which an actuating collar or washer 142 is preferably pressed. The end section 140 projects through a hole 144, in the spindle carrierplate 62, and is, on the other side-of the plate, provided with an actuating nut or washer 146, preferably locked to the spindle by a pin 148. By this means the picking spindle 71, actuated by the movement of the carrier E, mav be freely reciprov cated through the barrel 130 of the stripper head 156, while being rotated at a high speed bv the rotation of said stripper head. One

construction of the housing 70, spindle 71,

1 barrel 1'30 of the stripper head 15G-is mounted in the bearings 128 in the housing 70'and said barrel is provided at lits inner end with 'a shoulder 134 engaginga retaining plate 136, and ,atl its other end with a sprocket `wheel 132. l The shoulder 134 and sprocket wheel 1,32 prevent end movement of the strip-` per head, which is provided Vwith a substantially rectangular central opening 138 through which the spindle 71slidably passes, said' stripper head and spindle being rotatable together. x

Referring particularly to Figures 19 and 20 the picking spindle 71 is provided, at each corner of ltsr rectangular cross section, withl a projecting ledge 150, preferably formed by lcutting' away theintervening metal. The

ledges are beveled, as indicated in Figure 19, to a sharp edge in the direction of rotation on the picki g portion of the spindle, and sharp pointe teeth 152 are formed of the sharpened ledges, the teeth pointing forward as shown in LFigure 20. The forward edges of the teeth are cnt substantially at a right angle to the axis of the spindle,vwhile the opposite edges are out out at an angle backwardly inclined towards the axis. Slots 154 are provided in the barrel 130 of the stripper head 156, corresponding to the ledges 150 in'.

the picking spindle. The forward end of lthe stripper head is preferably conical in form,

the face of the cone coming to sharp edges 158 against the four fiat faces'of thev picking f spindle. In the modified form of picking unsv spindle shown in Figure 21, the four faces 160 of the spindle are shaped concave in cross section, and the sharp edges of the conical stripper head are made to conform to this shape. When the sharp points of the rotating picking spindles' come in contact with the vcotton inthe bolls, they catch the cotton and wind it around the body of the s indle. Neutral spaces,'indicated by dott lines G in Figure '19, Afree from cotton, or having less cotton pressure, caused by the projecting teeth 152, are formed between the faces of Y thespindle, and the surrounding, cotton, into which the sharp forward edges 158 of the stripper head 156 readily enter when the picking spindle is. retracted, 4to strip the cotton from the spindle. The conical form of the stripper head, in combination with the forward and outward bevel of the teeth 152 tends to loosen the cotton from the spindle as the spindle is moving backwards in the direction of the arrow (Figure The.

concave form of the spindle faces (Figure 21) enlarges the neutral or free space between the surrounding cotton and the inner sharp edges 'of the stripperv head 156 and thereby facilitates the entering, under the cotton. of the stripper head.

In Figure 20, we haveillustrated a modiiedform ofstripper head. Outer ball races 162 are mounted in the housing 70, and inner races 164 on a ltube '165. The-sprocket wheel 132 is fastenedto the rear end of thes tube 166, and the stripper head 156 is'secured to the forward end of the tube, which forms the barrel'of the stripper head. The stripper head is here provided with a flange 170 and a retaining plate 172 is secured to the carrier plate 68. rAfelt packing ringv 174 is preferably interposedv between the'flange 170 and retainer plate` 172 to protect the ball .4 bearings. The inward thrust of the stripper head 156, when stripping the, cotton, is here opposed by the forward ball races abutting an annular shoulder 176 of the housing, while in the construction shown in Figures 17 and 18 it ,is opposed by the shoulder 134 I K .reacting against the retainer plate 136.

'- lso The mechanism for rotating the spindles..

Referring to Figures 6 to 8", each driving shaft 50 is provided with a spline 178, fitting a splme way in the hubs 180 of the sprocket wheel 182 .arranged slidably upon the bars 57 and 58 of the reciprocating frame D, and are provided with .heads 188 in which the opposite ends of the sprocket hubs 180 have bearings. Horizontal distance rods 189, havmg hubs 190, preferably arranged between the heads 188 and sprocket wheel 182, are plvotedto the hubs of the sproclnet wheels,

and, extending inward, carry on their inner ends a larger sprocket 4wheel 194. .These sprocket wheels are secured to `run in unison and are drlven from the main shaft 50 by a l sprocket chain 196. vertical dist-ance rod 197 (Figure7) is pivoted to` the spindle 190 and to a counter driving shaft 198, upon which is mounteda sprocketjwheel 199 by which the shaft 198 is driven by means offa chain'200 from the sprocket wheel 194 on the spindle 190. The shaft 198 is mounted 1n bearings 202 arranged upon the stripper head carrier` plate 68 (Figure 1) and carries a series of bevel gears 204 in' mesh with bevel gears 206 (Figures -5 and 7) secured to the stub shafts I207 that are mounted in bearings- 210 in the stripper head carrier plate 68. The .bearings 210 are preferably identical in construction with the stripper head bearings and the stub shafts 207 are provided with sprocket wheels 212 arranged in a ver,- tical plane with the sprocket l'wheels 132 of the stripper heads. horizontal rows of spindles so that the spindles will be ina staggered relation, as

shown particularly in Figuresy 8 and 8, thel relation being such that four vertical rows of We prefer tormount the.`

stripper headsand spindles may be driven from each sprocket wheel 212 by a single driving chain 214, as shown in full lines in Figure 8", and indicated by dotted lines in Figure 8. Itwill be noted thateach of the l two vertical portions or sections of the chainy l engage the opposite toothed faces of two. ad.-

ups.

jacent vertical rows of sprocket .wheels 132,'

each section of the chain thus.d'riving two vertical rows of stripper heads and spindles in opposite directions as indicated by arrows in 'Figure 8*. In the manufacture ofthe spindles 71 the picking teeth of the spindles` are, therefore, formed in ,right and left handed position, and thejspindles are assembled in the machine corresponding tothedirection of their rotation.

Bythis construction'and method of driv-v lou 50, actuated `by `the brackets 184. As vthe stripper head carrier F is reciprocated transversely of the main supportingframe D the distance'rods 189 and 197 will oscillate to permit such movement.

The cotton ball raising mechanism.

In `Figures .9 to 13 we illustrate in de-` tailI means wherebyf'the'cotton bolls near the ground maybe lraised to the level of the picking spindles and maintained at this levelV while the cotton is removed from the bolls.

The forward end of the machine carries at each side of the tunnel opening 110 (see also Figure 4) a forwardly inclined shoe` 216, supported by ythey carrier frame bars' 6 and the subsidiary frame bar119. Cross girders 218 and 219 to which is secured a bottom plate 220, preferably connect the frame bars 6 and 119, and a bracket 222 is secured to the forward cross girder 219 upon.A which is loosely mounted, by means of an inclined pin 224, a sprocket wheel 225. The girder 218 is provided with a bracket 226 which carries, upon a pin or stud 227, a guiding pulley 228 on the outer side of the tunnel plate 118 and a similar pulley 229 on the inner or tunnel side of the plate 118. As the bottom of the plate 220 generally runs close tothe ground it is, at the forward end, preferably curved upwardly as shown in Figure 10 and the end of the shoe 216 is also preferably rounded as shown in Fig,- ure 9. The top of the shoe `216 consists of a forwardly inclined plate 221 connected to the flared end 117 of the tunnel plate 118. Preferably in the rear of the spindle frame, as shown in 'Figures 1, 9 and 10, we mount a vertical shaft 230 journaled above in a vbearing` 231 infdicated by dotted lines in Figure 1 on the upper horizontal frame bar, and having bearings'below in a bracket232 (Figure 9) attached to the frame bars 6 and 7. The bracket 232- preferably also carries an idler or guiding pulley 233, journaled upon a pin 234. A driving sprocket wheel 236 is secured to the shaft'230, and a universally flexible endless chain shown composed of links 237 and 238 and 239 passes around the sprocket wheel 236 between the idler pulley 233 and the tunnel plate 118, along the inside of the tunnel plate and over he guiding pulley 228, forward 'and t shown in Figure 1.

downward to the shoe sprocket wheel 225, around this wheel and out ,into the tunnel through a'slot 240 in the plate 118, then close along' this plate upward over the guide pulley 229, from thence horizontally and, through a slot 242 in the plate 118 back to the driving s rocket wheel 236. The carrier chain is pre erably supported in channels formed by the plate 118 and angle bars 243 and 244 as' shown in Figure 13, and is provided with horizontally disposed lugs 245 projecting into the tunnel 110. To obviate bending or tilting of the chain we prefer to provide thelinks 238 with upstanding guiding lugs 246 traveling in grooves' 248 in the upper guide bars 250. These `upper guide bars are secured to the movable tunnel plate` 120, except at the front portion of the carrier where the upper guide bar 251 is fas tened to the stationary plate-A118 as clearly The carrier chain may be of any suitable construction, sist of ordinary chain llinks, 237, provided with the carrying lugs 245 and the special y links238, jointed universally, by mean-s' of- ,l

the links 239', to the links 237 and provided with a guidingA lug 246. It will `be underf.

stood that the useful 'work of the carrier:

but'. we have shown it to con? chain is accomplished exclusively in the tun-j nel by chain, and while we, have sliown'the .forwardly running oridle part ofthe carrier chain arranged along the side of thev tunnel plate,

it is'l evident cated by dotted lines in'Figure 9. Nor ,do

we coniine ourselves to the position of the chain as Shown in the tunnel -below the lowest tier of pieklng spmdles, as 1t 1s evident that the chain might be 'arranged higher up between any vsuitable tiers or rows o fspindles.

The cotton collectors and omweg/01's. i

horizontal Referring now to Figures 4 and '16, a cotton stripping formed between the tunnel plate 120 and 4that the chain might be runidle' in a different path between the sprocket 'l wheels 225 and 236,215 for example'as indi' the rearward l*running 'part of the 75 and collecting chamber 252 is' stripper head carrier plate 68 when the latter is in the backward position,

full-lines in these figures. Belowllthe chaI'nber 252 is arranged anv endless Vconveyor belt 254 mounted on a pulley 256'at the forward' end of the machine (see Figures 1,2 and 10),

pulley ofthe portion of the `horizontal cours'eof the belt is.

supported'by the plate 262 inthe conveyor, and the lower vportion by aplate 264 forming thebottom of the conveyor box and pref-l erably fastened to the channell 73 and tunnel plate 118. Within the elevator casing 259 is also mountedl an endless elevating belt 266 on the pulley l258 andan upper pulley 267 in the casing. The conveyor' belt 254 runs under the elevating ley 258 as shownl clearly in Figure 10 anc the upper pulley 267 is so placed that the two.belts are-tensioned against each other.

The driving pulley 260 is secured to an ele' vator shaft 268 that4 is mounted in bearings. '130g 269 on 'the 4elevating casing and is preferably extended to also 'drive the conveyor and` elevatinggbelts in the right hand unit of the machine as shown in Figure 2. The shaft 268 is driven in the direction shown by the arrow in Figure 1 from the main driving shaft 50 by means of a pulley belt 270 running from a' pulley 272 on the shaft 50 to a pulley 274 on the elevator shaft 268.

A-suitable receptacle 276 into which the picked cotton is delivered from the elevator a shownb belt 266 on the pul-l lil( guided on each side of 'a rowof cotton roller.V

stalks, the flared forwardnd of the tunnel plates 118 and 112 will guide the branches of the cotton plants into the. narrow tunnel opening 110, the side branches being naturally bent forward and any portionof the plant higher than the roof of the tunnel being bent downward. Atfthe same time the forwardly inclined shoes 216 of the vmachine will pass underneath any cross branches that may be situated below the lower level of the picking spindles, and, as the` machine progresses, these branches are -raised to a higher level, and are also bent forward when they come in contact with the outwardly flaring portion of the tunnel walls 118 'and are contracted to the narrower tunnel space 110. The carrier chain traveling backwards in t-he tunnel relative to the machine structure at a speed makingthem relatively stationary with. the cotton stalks, will project the lugs 245 between the stalks from both sidesv` and underneath any branches extendlng in a lengthwise direction of thev cotton row as the lugs pass out of the shoes 216 atthe lowest point at the forward end of the shoes. As the lugs passupwards from this point to the guide rollers 229 these branches will be gradually raised, and, as the lugs approach the rollers 229, they also raise the cross branches bent forward by the flared walls 117 up and down, above the top of the All the lower `branches are thus raised above the roller 229 and preferably to about the level of the -lower tier ofpicking' spindles, as shown, or to any height that may be preferable. -After the moving tun.-

nel enclosure, therefore, has contracted and confined the cotton plants in its narrow portion, it will be seenthatall the branches or portions of the plants that, can contain cotton bolls have been brought into the active field of the close formation of picking spindles operating from both sides of the tunnel 110 and that this has been accomplished gradually and'with little disturbance or agitation of the plants. The chain lugs 245 remaining stationary`with the tunnel 110 relative-to the plants during t e' passage of 3the picking spindles, sustains the raised branches in the elevated position during the whole cotton picking operation. As' the' picking spinles are projected-through the tunnel alternately from 'both sides by the actuating cranks 98 they move backward while in the tunnel at approximately the same speed that the machine moves forward and the disposition oflthe spindles in their respective opposite fields, the throw of the cranks and the ratio of crank revolutions to the forward travel of the machine is preferably proportioned so that the spindles describe intersecteral projections and ret'ractions or projection l curves` of the spindles. take place at approximately the same points in the tunnel. After the cottonin the; bolls has been wound on the spindles.. it is carried, by the retracting spindles, through .the openings 124 in the tunnel walls 120, whereby' trash and other foreign lmatter is separated from the cotton and falls .to the ground. As the spindles are further retracted, the stripper heads 156, moving at less speed than the spindles engages the cotton and pushes it olf' the spindles in' the manner hereinbefore described. It. should be noted thatthe stripper heads, moving horizontally in unison with-'but a shorter distance than the 'picking spindles, not only support the'spindles when in their projected position, but, by the advanced po- -vsition they 'assume at the beginning of the no f stripping operation the time available for the stripping of the cotton is prolonged, and

the stripping operation mfade gradual as the `stripping.- heads are gradually retracted. This function ofthe lvvibrating stripper heads, greatly contributes to the clean and eiiicient stripping of the cotton from the spindles. Y' v r By-the novel construction of the spindle actuating mechanism onlyv one-third `of the time required for the complete cycle of the horizontal projection and returnof the stripping head and spindle, is used in the pickmg and stripping-of the `cotton and the re- 'turn to near its outer position of the strip- Aping head. This leaves two-thirds of the time of the cycle for this strippedA cotton to drop by gravity on to the belt 254 in the bottom ofthe stripping chamber 252.

The lcotton removed from the spindles drops upon Lthe conveyorl belts, and, after to the'receptacle 276, as indicated 'bythe arrow in Figure 1. foregoing description 'and the construction being carried to the rear of the machine, it enters between the' conveyor belt 254 and. elevator belt266. and is elevated by these belts and discharged from between them in-l Obviously, from Athe shown in the drawings the detailed arrangement and construction of various elements and parts of the invention, may be modified to a considerable degree without departing vided with a series of stripper heads engaged by said spindles, and means for moving said frame member and said carriers, substantially as described.

2. In a cotton picking machine, the combination, with a longtudinally movable frame member, of a transversely movable carrier mounted therein, a series of picking spindles mounted in said carrier. and an independent, transversely movable carrier, also mounted in said frame member and provided with'a series of stripper heads engaged by said spindles, an'd means for' moving said frame member" and said carriers, substantially as described. n

3. In a cotton picking machine, the combination, with a .longitudinally movable frame member, of `a transversely movable carrier mounted therein, picking spindles carried by said carrier, an independent transversely movable carrier provided with stripper heads slidably engaged by said spindles, means Jfor reciprocating thel longitudinally movable member,'means for t ansversely reciprocating said carriers, the movement of the strippervhead carrier being less than the movement of the spindle carrier, substantially as described.

4. In acotton picking machine, the combination, with aA longitudinally movable frame member, of independent transversely movable carriers mounted therein, picking spindles provided on one of said carriers, an'd vstripper heads provided on the other carrier, saidA stripper heads being provided `with openings engaged by said vspindles and 'in which the spindles are adapted to slide,

means for reciprocating the longitudinally movable member, and means for transversely reciprocating said carriers, the movement o f the stripper head carrier-,being less than the movement-of the spindleA carrierfsubstantially as. described.

5. In a cotton pickinv'machine, the combinat-ion, with a longitu inal, movable frame member, and an upright'plate co nected therewith and providedwith a eries of openings, and forming one wall of a cot-l ton plant confining space,- of independent transversely movable carriers mounted in the longitudinally movable member, picking spindles mounted on one of said carriers,

stripper heads slidably engaged by said spindle, and mounted on said othercarrier, said spindles being arranged in line with the openings in said vertical plate, and means for reciprocating said frame member and said carriers, substantially as described.

6. In' a cotton picking machine, the combination, with a picking spindle carrier and a series of spindles mounted therein, of a stripper head carrier provided with stripper heads slidably engaged by saidspindles, and means for reciprocating said carriers, the

stripper head carrier being given ashorter movement than the spindle carrier, purpose set forth.

for the 7. In a cotton pickingmachine, the com-V fbinati'on, with an upright plate forming one wall of a cotton plant confining space, of a picking s indle carrier arranged parallel with said p ate, a stripper head carrier ar- ',ranged l'parallel with said plate, and between saidplate and the spindley carrier, and means for reciprocating said carriers towards and from said plate, for the purpose set forth.

8. In a cotton picking machine, the combination, with a picking spindle carrier and a series of picking spindles mounted thereon, of a stripper head carrier provided with stripper heads slidably engaged by 'said spindles and means for reciprocating both of said carriers inthe line of the axis oi saidy f spindles, for the purpose set forth. 4

9. In a cotton picking machine, the combinationfwit-h a picking spindle carrier and a series of picking spindles mounted thereon, of a stripper. head carrier provided with stripper heads slidably engaged by said spindles, means for reciprocating both of .said carriers in the line'of the axis of the said spindles and means for rotating said stripper heads and spindles.

10. In a cotton picking machine, the combination, with a reciprocating picking spindle, of avstripper head through which said spindle extends,` and means for reciprocating said spindle and stripper head lengthwise of the axis of saidspindle, for the purpose set forth. v

11. In a cotton picking machine, the combination, with a reciprocating picking. spindle, of al stripper head'fthrough which said 'spindle extends, means for reciprocating said dle, of a stripper head through w ich said,

spindle extends, the spindle and stripper head being connected for simultaneous rotation but independently movable in the direction of thelength ofthe spindle, means for rotatingsaid stripper head, and thereby lao i rot-ating said spindle, and means for impart- `spindle and means for imparting a longitudinal reciprocation to -both the spindle and the stripper head, the longitudinal movement of the stripper head being less than the longitudinal movement of the spindle, for the purpose set forth. n

14. In a lcotton picking machine, the combination, lwith'an upright, longitudinally extending plate forming one wall of a cotton plant coniining space, said plate being provided with a series of openings, of 'a picking j spindle carrier extending parallel with said ltravel of the machine.`

\plate, and mounted to reciprocate towards and from the plate, a series of spindles on said carrier in line withl the openings. in said plate, a stripper head for each spindle located between the spindle carrier and said plate and means for moving said spindle' carrier towards and from said plate and` thereby projecting saidspindles through the openings in the'plate into the cot-ton plant confining space, and means for reciprocating said Stripper heads with said spindles for the purpose set forth.

15. In a cotton picking machine, the combination, with longitudinal enclosure walls forming a tunnel in which the cotton plants are conned, of cotton picking spindles adapted to be projected laterally across said tunnel, vertically arranged crank shafts adapted to actuate said spindles in horizontal `circular paths, and driving and su porting means co-operating with said crank s afts for moving saidl spindles vlaterally across said. -tunnel in anv alternating forward and backward curved course relative to the forward 16. In a machine of the class described, the combination, with a cotton plant enclosing tunnel having structurally xed and longitudinally reciprocating separated tunnel walls, of reciprocating frames to which said reciprocating tunnel Walls are connected, spindle carriers adapted to relciprocate transversely in said reciprocating frames, rotating picking spindles arranged in saidl spindle carriers, vertically mounted crank shafts driven in unison and adapted to actuate said spindle carriers in a horizon-c,j tal circular path,` and means co-operating .With-said crank shafts, and said reciprocating frames and spindle carriers, for moving said picking spindles laterally across said tunnel through said perforated' tunnel walls.

,. 17.- In a cotton picking machine, the combination, with a main frame,\ofa picking tunnel in which the cotton plants are confined, said 'tunnel comprising vertical side walls and a roof wall,'mea11s for supporting said tunnel walls in a structurally fixed position, a reciprocating frame supporting cotton picking spindles, side wall sections of the` tunnel connected to said reciprocating frame and moving therewith, the said sections having apertures through which the picking spindles are projected into said tunnel and overlapping connections between the fixed and the moving side walls 'of the tunnel.

18. In` a cotton picking machine, the combination with a carriage frame, and means for supporting and moving thev same, of

longitudinally arranged plant enclosure walls, formed in sections, and extending' from front to rear of said carriage, means securing the forward and rear 'sections of said walls rigidly to the carriage frame, and means independently supporting the intermediate sections of said walls and permitting a reciprocating motion to be impart/editto said intermediate sections. j

19. In a cotton picking machine, the combination, with a carriage frame and means for supporting and moving the same, of longitudinally arrangedl enclosure walls secured to said frame and forming'a .plant confining space extending from thefront to.

the rear of said carriage, means securing the forward1 and rear sections of said .walls rigidly tothe carriage, frame, means for movably securing the intermediate sections, and means for reciprocating said intermediate sections, for the purpose set forth.

20. In a cotton picking machine, the combination, with a carriage frame and means for supporting and moving the same, of

longitudinally arranged sectional enclosure walls extending from the front to the rear of said frame an-d forming a plant confining space, with the forward and rear sections of said walls rigidly secured to the carriage frame and with the intermediate vsections movably supported upon said frame, said intermediate sections being provided with openings, picking spindles arranged to move longitudinally of said carrlage wlth said movable .wall sections, and means for transversely reciprocating said spindles and causing them to be alternately projected through the openings in said movable Wall sections into they plant confining space, and to be withdrawn therefrom.' V

21. In a cotton picking machine, the combination, with a carriage frame and means for supporting and moving the same, of longitudinally arranged plant enclosing walls extending from front .to rear of said carriage, means movably supporting sections of. said walls, and cotton picking 'spindles ar. ranged to move with said walls and to be al- 

